Corporate Member Hosted Event
10 March 2023
11:00 - 12:00 GMT
Please join us to learn how X-ray microscopy can be utilised for correlative workflows with TEM and other high-resolution imaging techniques. The Xradia Ultra is a nanoscale X-ray microscope with optics designed originally for Synchrotron, adapted for the lab environment. This webinar will describe how this system combines high lateral resolution with excellent sample representivity to feed into understanding of material or biological systems and how this can help inform subsequent experiments. Attendance is recommended for any scientist using TEM or other high-resolution imaging techniques as well as existing users of synchrotron facilities. We hope to see you there!
Presenter:
Mohsen Samadi-Khoshkoo
Carl Zeiss Ltd
RMS in partnership with
A portion of a solid oxide fuel cell (SOFC). There are three layers of the SOFC visible. The porous top section is the cathode, which is a lanthanum-strontium-manganite (LSM) composition. The center of the sample is the electrolyte, which is made of yttria-stabilized zirconia (YSZ). The bottom layer is the anode, which is a porous composite of Nickel and YSZ. Imaged with Xradia 810 Ultra (sample width 16 µm).
In situ compressive indentation failure in a SiC:BN composite fiber. Imaged with Xradia 810 Ultra + Ultra Load Stage, sample width 65 µm.
Lithium ion battery cathode pore network and simulated diffusion through carbon binder domain. Imaged with Xradia 810 Ultra (Sample width 71 µm. The analyzed volume is 40 µm x 40 µm x 65 µm.).